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The development of Evosmosis Cycles introduces a novel method for harnessing ambient thermal energy, offering a transformative solution for sustainable energy production. These cycles operate through vapor pressure gradients within a closed system, integrating the principles of osmosis and Raoult’s law to create a self-sustaining energy loop. The experimental system consists of two chambers separated by a selectively permeable membrane, each containing solutions of differing solute concentrations. Enhanced evaporation in the low-solute chamber and increased condensation in the high-solute chamber sustain continuous energy flow. Additionally, the incorporation of highly soluble gases, such as carbon dioxide, amplifies vapor pressure gradients and energy output. This system uses readily available materials, including cellophane membranes and polymer solutions, and operates at ambient temperature without external energy input. Preliminary findings demonstrate its potential for renewable energy generation with minimal environmental impact. This paper explores the theoretical and experimental foundations of the Evosmosis Cycle, emphasizing its significance for scalability and practical applications in sustainable energy systems.